Explanation The forces acting on the aircraft connection are P and Q . The tension in the roads A and B are T A and T B respectively. T A has magnitude equal to 240 lb and T B has magnitude equal to 500 lb . The free body diagram of the aircraft connection shown in Fig. P2.52 is given in Figure 1. When the system is in mechanical equilibrium, the algebraic sum of all the forces acting on the body will be zero. Write the expression for the condition for equilibrium for the given system. P + Q + T A + T B = 0 (I) In terms of x and y components, the equation (I) can be written as, − P j ^ − ( Q cos 30 ° ) i ^ + ( Q sin 30 ° ) j ^ + ( T A cos 60 ° ) i ^ + ( T A sin 60 ° ) j ^ + ( T B ) i ^ = 0 (II) Here, i ^ is the unit vector along the x direction and j ^ is the unit vector along the y direction. In order to satisfy the equilibrium condition along each x and y direction, the sum of all x components of the forces and the sum of all y component forces must be separately equal to zero. Write the equilibrium condition in the x direction for the system from equation (II). − Q cos 30 ° + T A cos 60 ° + T B = 0 (III) Write the equilibrium condition in the y direction for the system from equation (II)

12th Edition

ISBN: 9781259977268

Author: Ferdinand P. Beer, E. Russell Johnston Jr., David Mazurek

Publisher: McGraw-Hill Education

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Chapter 2.3, Problem 2.52P

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The magnitude of the forces P and Q acting on the aircraft connection.

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Chapter 2.3, Problem 2.51P

Chapter 2.3, Problem 2.53P

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Vector Mechanics for Engineers: Statics

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